顽拗性黄皮种子脱水过程中活性氧清除酶活性的变化

以正常性种子花生为对照,研究了顽拗性黄皮种子脱水过程中活性氧清除酶、膜脂过氧化作用以及电解质渗漏率的变化。随着含水量的下降,黄皮胚的电解质渗漏率和膜脂过氧化产物丙二醛(MDA)含量均显著增加;当黄皮胚含水量下降至40％后,SOD活性开始急剧下降,而POD和CAT活性在胚含水量下降过程中呈现出缓慢下降的趋势。花生胚在含水量从45％降至14％的过程中,电解质渗漏率没有明显增加,MDA含量只有少量增加;当含水量降至14％后,电解质渗漏率出现少量增加。花生胚脱水初期,活性氧清除酶活性明显增加,并在整个脱水过程中维持较高的水平。以上结果表明顽拗性种子黄皮的脱水敏感性与活性氧清除酶相对活性变化有关。脱水引起黄皮胚活性氧清除酶活性降低,活性氧清除能力下降,膜脂过氧化作用加强,膜透性增大。黄皮胚的膜系统可能是脱水伤害的靶位之一。     

近地层臭氧对小麦抗氧化酶活性变化动态的影响

摘要:利用开顶式气室（TOCs）模拟了地表O3浓度升高的大田试验条件,测定了小麦各生长期(返青期、拔节期、孕穗期、抽穗期、灌浆期、成熟期)叶片抗氧化酶的活性。通过两年的重复试验,得到相似结果。试验表明,过氧化氢酶（CAT）和过氧化物酶（POD）活性在小麦的生长进程中,先升高后降低。O3浓度升高使CAT酶和POD酶活性的峰值期提前,POD酶峰值期明显提前所需的O3浓度比CAT酶高,O3诱导小麦生长前期的CAT、POD酶活性升高,后期则起抑制作用。POD酶对低浓度O3的胁迫响应时间较晚。当O3浓度提高到150 nL?L-1时,超氧化物歧化酶（SOD）活性随小麦生长期的变化,由原来的双峰曲线变为单峰曲线,高浓度O3使SOD酶活性在抽穗期后持续显著降低。O3不明显改变抗坏血酸过氧化物酶（APX）对胁迫的响应时间,但一定浓度范围内O3能诱导APX酶活性升高。不同浓度的O3对SOD酶和APX酶的作用效应和强度显著不同, CAT酶和POD酶对O3比较敏感。 因此,近地层O3浓度增加,改变了CAT、POD和SOD酶活性变化的时序特征,抗氧化酶对O3胁迫的响应特征取决于小麦的生育期、O3的浓度和薰气时间。     

荞麦种子萌发期多种抗氧化酶活性的研究

通过研究荞麦种子萌发期(0～7 d)超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)和抗坏血酸过氧化物酶(ASP)四种抗氧化酶的酶活性变化,以及对自由基等的清除效果,分析荞麦种子内在抗氧化酶系统在萌发期对细胞膜结构的修复及保护作用。实验结果表明:荞麦种子在萌发期产生的活性氧、自由基等对四种抗氧化酶均有激活效应,其中超氧化物歧化酶(SOD)活性最先上升,其他三种酶随其后被激活,四种酶的氧化反应存在一定关联性和协同作用。苦荞的抗氧化酶活性高于甜荞。     

珙桐种子休眠解除和萌发过程中主要抗氧化酶活性和代谢产物含量的变化

珙桐(Davidia involucrata Baill.)种子在休眠解除和萌发过程中,主要的抗氧化酶和代谢产物在有效清除活性氧和保证种子活力方面具有重要作用。研究以马边自然保护区采集的珙桐种子为研究对象,对其从休眠解除进入萌发阶段过程中的主要抗氧化酶的活性和代谢产物含量进行测定和分析。结果显示:层积初期,过氧化物酶(POD)、过氧化氢酶(CAT)、超氧化歧化酶(SOD)和谷胱甘肽还原酶(GR)活性均上升,但总抗氧化能力(T-AOC)下降。可溶性蛋白质(Pr)下降而抗坏血酸(Vc)、游离氨基酸(FAA)含量增大;层积中期,SOD活性和T-AOC呈先升高后下降的变化趋势。尽管CAT和GR活性下降,但POD活性保持较高的水平;层积后期,SOD和CAT活性较低,POD、GR活性和T-AOC,FAA和Vc含量整体呈上升趋势;萌发阶段,各抗氧化酶活性均有显著增加(P0.05),Vc和FAA含量显著增加,Pr含量降低。研究结果表明,珙桐种子可以通过各抗氧化酶活性(POD,CAT,SOD和GR)和代谢产物(Pr,FAA和Vc)间的相互作用,在种子休眠解除和萌发过程中先后有效地消除活性氧对细胞结构完整性的影响,并促进珙桐种子的形态和生理后熟,从而保证种子顺利萌发。     

光质对烟草叶片生长发育过程中抗氧化系统的影响

以云烟87植株为材料,通过覆盖白、红、黄、蓝、紫色滤膜获得不同光质,于大田条件下研究了光质对烟草叶片生长发育过程中超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、过氧化物酶(POD)、抗坏血酸过氧化物酶(APX)、谷胱甘肽过氧化物酶(GPX)、谷胱甘肽还原酶(GR)等抗氧化酶活性,抗氧化剂谷胱甘肽(GSH)和抗坏血酸(AsA)以及丙二醛(MDA)含量的影响.结果表明,在烟草植株第11片叶生长发育的7~70 d内,其抗氧化酶活性和抗氧化物质含量呈现先升高后下降的变化趋势.与白光(对照)相比,黄光诱导烟草叶片SOD、CAT、APX和GR活性升高,以及AsA和GSH含量增加;而红光诱导APX和GR活性上升,以及GSH和AsA含量升高;但紫光却使SOD、CAT、POD、GR和GPX活性下降,GSH和AsA含量降低,而蓝光则使所有抗氧化酶活性和抗氧化物质含量降低.紫光和蓝光处理的烟草叶片中MDA含量较高,而黄光和红光处理的则较低.总体而言,在大田条件下,相对红光和黄光而言,蓝光和紫光处理下的烟草叶片更容易发生光氧化胁迫.     

外源一氧化氮对氯化钠处理下秋茄幼苗抗氧化系统的调节效应

研究了外源一氧化氮(NO)供体硝普钠(SNP)对NaCl处理下红树植物秋茄(Kan-deliacandel)幼苗叶片中抗氧化酶活性、抗氧化物质及脯氨酸含量的影响。结果表明:NaCl处理下,秋茄幼苗叶片中超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)和抗坏血酸过氧化物酶(APX)等4种活性氧清除酶的活性均受到明显抑制(P<0.05),SNP可以不同程度地恢复SOD、POD、CAT的活性,但对APX活性影响不大;SNP提高谷胱甘肽(GSH)及类胡萝卜素(Car)的含量,促进脯氨酸含量的上升,显著降低叶片中过氧化氢(H2O2)和丙二醛(MDA)的累积。表明外源NO可以缓解NaCl处理诱导的秋茄幼苗叶片氧化损伤,降低膜脂过氧化水平,有利于秋茄适应盐生环境。     

Trichiliadregeana胚轴的脱水敏感性与抗坏血酸的抗氧化作用

以顽拗性TrichiliadregeanaSond.种子为材料,研究其胚轴的脱水敏感性与抗坏血酸的抗氧化作用。T.dregeana胚轴的脱水耐性随着脱水进程逐渐下降,50%的胚轴被脱水致死的含水量(W50)大约为0.16gH2O/gDW。在脱水过程中,胚轴的电解质渗漏速率逐渐增加,超氧物歧化酶(SOD)、抗坏血酸过氧化物酶(APX)、过氧化氢酶(CAT)、谷胱苷肽还原酶(GR)和脱氢抗坏血酸还原酶(DHAR)的活性下降,硫代巴比妥酸(TBA)-活性产物的含量增加。2.5~10.0mmol/L抗坏血酸处理能有效地增加胚轴的脱水耐性和SOD、APX、CAT和GR的活性,降低电解质渗漏速率和TBA活性产物的含量。结果表明,T.dregeana胚轴的脱水耐性与抗氧化酶的活性增加和脂质过氧化作用的降低密切相关。     

顽拗性黄皮种子税水过程中活性氧清除酶活性的变化

以正常性种子花生为对照,研究了顽拗性黄皮种子脱水过程中活性氧清除酶、膜脂过氧化作用以及电解质渗漏率的变化。随着含水量的下降,黄皮胚的电解质渗漏率和膜脂过氧化产物丙二醛（MDA）含量均显著增加;当黄皮胚含水量下降致40％后,SOD活性开始急剧下降,而POD和CAT活性在胚含水量下降过程中呈现出缓慢下降的趋势。花生胚在含水量从45％降至145的过程中,电解质渗漏率没有明显增加,MDA含量只有少量增加;当含水量降至14％后,电解质渗漏率出现少量增加,花生胚脱水初期,活性氧清除酶活怀明显增加,并在整个脱水过程中维持较高的水平。以上结果表明：顽拗性处子黄皮的脱水敏感性与活性氧清除酶相对活性变化有关。脱水引起黄皮胚活性氧清除酶活性降低,活性氧清除能力下降,膜脂过氧化作用加强,膜透性增大。黄皮胚的膜系统可能是脱水伤害的靶位之一。     

黄皮种子线粒体呼吸速率和活性氧清除酶活性对脱水的响应及其生态学意义

顽拗性种子脱落时具有较高的含水量和代谢活性, 对脱水高度敏感; 但顽拗性种子脱水敏感性的机理至今仍然不清楚。该文以顽拗性黄皮(Clausena lansium)种子为材料, 研究了种子和胚轴对水分丧失的响应, 在脱水过程中胚轴和子叶的呼吸速率, 胚轴和子叶线粒体的细胞色素c氧化酶(CCO)活性、外膜完整性、CCO和交替氧化酶(AOX)途径以及线粒体活性氧清除酶活性的变化。结果表明, 随着水分的丧失, 种子和胚轴的存活率逐渐下降, 种子的脱水敏感性大于胚轴; 胚轴和子叶的呼吸速率以及线粒体外膜的完整性降低。胚轴和子叶线粒体的CCO途径以及胚轴AOX途径的呼吸速率在脱水初期增加, 随着继续脱水下降, 胚轴线粒体AOX途径的呼吸速率则随着脱水显著下降。胚轴线粒体的超氧化物歧化酶(SOD)、抗坏血酸过氧化物酶(APX)和谷胱甘肽还原酶(GR)活性和子叶线粒体的APX活性随着脱水迅速下降; 胚轴线粒体的脱氢抗坏血酸还原酶(DHAR)活性和子叶线粒体的SOD、DHAR和GR活性在脱水初期增加, 然后下降。这些数据表明黄皮种子的脱水敏感性与线粒体的呼吸速率和活性氧清除酶的活性降低密切相关, 也与长期适应热带/亚热带的生境有关。     

外源NO对2+胁迫下小桐子幼苗抗氧化能力的影响

为探讨外源一氧化氮(NO)供体硝普钠(SNP)对铜(Cu2+)胁迫的缓解效应,该试验以小桐子幼苗为材料,先通过小桐子幼苗根茎生长指标的变化筛选出后续实验适宜的SNP(0.2mmol/L)和Cu2+浓度(90mmol/L),再进一步考察SNP预处理对Cu2+胁迫下幼苗脯氨酸(Pro)和丙二醛(MDA)的含量及抗氧化酶活性的影响。结果显示:(1)Cu2+处理能诱导小桐子幼苗叶片中Pro和MDA含量显著升高,且过氧化氢酶(CAT)、超氧物歧化酶(SOD)、愈创木酚过氧化物酶(POD)及抗坏血酸专一性过氧化物酶(APX)的活性增强。(2)用SNP预处理能显著提高Cu2+胁迫下幼苗叶片Pro的含量,进一步增强叶片中CAT、SOD、POD和APX活性,降低MDA的含量。研究表明,0.2mmol/L的SNP能够通过提高小桐子幼苗的抗氧化酶活性和游离脯氨酸含量来增强其抗氧化胁迫能力,从而显著缓解Cu2+胁迫对幼苗造成的氧化伤害,维持其正常生长发育。     

Proteomic profiling and redox status alteration of recalcitrant tea (<Emphasis Type="Italic">Camellia sinensis</Emphasis>) seed in response to desiccation

Tea seed is believed to be recalcitrant based on its sensitivity to chilling or drying stress. Reactive oxygen species (ROS) and alterations in cytosolic redox status have been implicated in intolerance to desiccation by recalcitrant seed, but there is little information available regarding how ROS are regulated in seeds susceptible to drying stress. We investigated changes in protein expression and activity in tea embryo in response to desiccation using physiological and proteomic methods. Results showed that desiccation treatment dramatically induced the accumulation of H₂O₂ in tea embryos, accompanied by increased activities of antioxidant enzymes like ascorbate peroxidase (APX) and superoxide dismutase (SOD). Proteomic analyses also demonstrated that 23 proteins associated with defense response, metabolism and redox status were up-regulated following desiccation. Increase in antioxidants, ascorbic acid (AsA) and catalase (CAT) (H₂O₂ scavengers) partially assuaged desiccation damage to tea seed, resulting in improved germination rates. Higher accumulation of H₂O₂ aggravated desiccation damage to seeds leading to lower germination activity. We propose that desiccation causes an over-accumulation of ROS that are not efficiently scavenged by increased levels of antioxidant enzymes. High levels of ROS alter the redox status and are detrimental to seed viability. Reducing ROS to appropriate concentrations is an efficient way to reduce desiccation damage and improve germination rates of recalcitrant seeds.     

Localization of antioxidant enzymes in the cellular compartments of sorghum leaves

The localization of antioxidant enzymes between the mesophyll and bundle sheath cells were determined in sorghum (Sorghum vulgare L.) leaves. The activity of antioxidant enzymes like superoxide dismutase (SOD), catalase (CAT), guaiacol peroxidase (POD), ascorbate peroxidase (APX) and glutathione reductase (GR) were assayed in whole leaf, mesophyll and bundle sheath fractions of sorghum leaves subjected to water-limited conditions. Drought was imposed by withholding water and the plants were maintained at different water potentials ranging from 0.5–2.0 MPa. The purity of the isolates was tested using the marker enzymes like RuBPcase and PEPcase. GR was mostly localized in mesophyll fraction, while SOD, APX and peroxidase were located in bundle sheath cells. Catalase was found to be equally distributed between the two cell types. Under water stress conditions, most of the SOD activity was found in the bundle sheath tissues. Little or no activity of the enzymes CAT, APX or POD was found in the mesophyll extracts when exposed to water stress. GR activity increased when exposed to low water regimes. From this study, it is clear that antioxidants are differentially distributed between the mesophyll and bundle sheath cells in sorghum leaves. Under water stress conditions, the mesophyll cells showed less damage from oxidative stress when compared to the bundle sheath cells. This is critical for determining the sensitivity of sorghum to extreme climatic conditions.     

光质对白芨组培苗生理特性及酶基因表达的影响

为探讨光质对白芨(Bletilla striata)组培苗生长发育的影响,对不同光质下白芨组培苗的生长特征、抗氧化酶活性以及酶基因表达进行了研究。结果表明,蓝光和红光对白芨生长有显著促进作用,绿光的作用不明显。除了CAT外,不同光质处理白芨的APX、POD、SOD活性均呈上升趋势,且黄光处理的白芨SOD和APX活性最高,红光处理的POD活性最高,绿光处理的抗氧化酶活性比其他光质的低,蓝光处理35~45 d对抗氧化酶基因表达具有促进作用。因此,红光和黄光促进白芨生根组培苗的长高和生根;不同光质处理总体上提高了白芨氧化酶活性;白芨抗氧化酶基因的表达在蓝光处理下最大。     

不同脱水速率对木奶果种子脱水敏感性及抗氧化酶活性的影响

研究了脱水速率对木奶果种子脱水敏感性和抗氧化酶活性的影响。木奶果种子初始含水量高达1.72gH2O·g^-1DW,萌发率为86.67%。含水量降至0.90gH2O·g^-1DW左右时,慢速脱水种子的萌发率为97.78%,而快速脱水的种子萌发率仅为64.44%。快速脱水至含水量为0.76gH2O·g^-1DW时萌发率为21.67%,而慢速脱水至0.68gH2O·g^-1DW时,萌发率仍高达55.56%。确定了木奶果种子是对慢速脱水耐受性更高的顽拗性种子。在种子脱水过程中,相对电解质渗透速率和脂质过氧化产物（TBARs）都呈升高趋势,但慢速脱水后的种子,其TBARs升高的速率较快速脱水的慢。快速脱水的种子中超氧化岐化酶（SOD）、脱氢抗坏血酸还原酶（DHAR）和抗坏血酸过氧化物酶（APX）的活性较慢速脱水的高,而过氧化氢酶（CAT）活性较慢速脱水的低,未检测出谷胱甘肽还原酶（GR）的活性。这些结果表明,在木奶果种子脱水耐性获得过程中过氧化氢酶比其他抗氧化酶作用更大。     

大豆萌发过程的活性氧代谢

本文研究了大豆萌发过程中活性氧的产生与清除,并探讨了光因子在活性氧代谢中的作用。大豆呼吸强度、O产生速率及H2O2水平都在吸水后第四天达到高峰,然后下降,三者的变化趋势同步。SOD、POD及APX的活性随萌发过程而逐渐增强,最后趋于平稳。SOD同工酶谱中分别于萌发的第二、第三天各出现一条新的酶带。CAT在萌发的初期猛增50倍左右,之后趋于稳定。在三种清除H2O2的酶（CAT、POD、APX）中,CAT清除H2O2的能力远远高于POD与APX,CAT可能是大豆萌发过程中最主要的H2O2清除酶。光萌发时呼吸强度低于暗中萌发,但O产生速率与H2O2水平高于暗萌发,光萌发时O的产生占总耗氧量的1．1—2．7％,而暗中萌发为0．9—1．3％。光条件下SOD、APX活性明显高于暗中萌发,而POD与CAT则在光和暗条件下相差不大。     

Possible Involvement of Reactive Oxygen Species Scavenging Enzymes in Desiccation Sensitivity of Antiaris toxicaria Seeds and Axes

The relationships among desiccation sensitivities of Antiaris toxicaria seeds and axes, changes in activities of superoxide dismutase (SOD), ascorbate peroxidase (APX), catalase (CAT), glutathione reductase (GR) and dehydroascorbate reductase, (TBA)-reactive substance were studied. Desiccation tolerance of seeds and axes decreased with dehydration. Desiccation tolerance of axes was higher than that of seeds, and that of epicotyls was higher than radicles. Activities of SOD, CAT and DHAR of seeds increased during the initial phase of dehydration, and then decreased with further dehydration, whereas activities of APX and GR decreased with dehydration. These five enzyme activities of axes, however, increased during the initial phase of dehydration, and then decreased with further dehydration. The rate of superoxide radical production, and the contents of H2O2 and TBA-reactive products of seeds and axes gradually increased with dehydration. These results show that the A. toxicaria seed is a typical recalcitrant seed. Loss of desiccation tolerance in seeds and axes was correlated with activities of seeds and axes.     

Comparative study on calli from two reed ecotypes under heat stress

The different physiological responses to heat stress in calli from two ecotypes of common reed (Phragmites communis Trin.) plants (dune reed (DR) and swamp reed (SR)) were studied. The relative water content, the relative growth rate, cell viability, membrane permeability (MP), H₂O₂ content, MDA content, proline level, and the activities of enzymes, such as superoxide dismutase (SOD), catalase (CAT), peroxidase (POD), ascorbate peroxidase (APX), glutathione reductase (GR), and lipoxygenase (LOX) were assayed. Results showed that under heat stress, DR callus could maintain the higher relative growth rate and cell viability than SR callus, while H₂O₂ content, MDA content, and MP in SR callus increased more than in DR callus. The activities of antioxidant enzymes, such as SOD, CAT, POD, APX, and GR in two calli were enhanced by high temperature. However, antioxidant enzymes in DR callus showed the higher thermal stability than those in SR callus. LOX activity increased more in SR callus than in DR callus under heat stress. High temperature markedly elevated proline content in DR callus whereas had no effect on that in SR callus. Taken together, DR callus is more thermotolerant than SR callus, which might be due to the higher activity of antioxidant enzymes and proline level compared with SR callus under heat stress.